Statistical Narrow Band model for vibrational nonequilibrium CO2 radiation
Résumé
This paper presents the development of a Statistical Narrow Band (SNB) model for CO2 in a nonequilibrium vibrational state. The population den- sities of the energy levels are modeled by a three-temperature approach (T, T12, T3) associated resp. to translation-rotation modes, symmetric-stretching and bending modes, and antisymmetric stretching mode, to compute nonequilibrium line by line (LBL) spectra. The nonequilibrium between vibrational temperatures induces spectral correlation issues between ησ/κσ and κσ, where ησ and κσ are the emission and absorption coefficients respectively. To over- come this issue, a vibrational splitting of the spectroscopic database is made to separate lines with completely different vibrational transitions. The SNB parameters are obtained by fitting the curves of growth from the LBL approach by a least squares error minimization using a Newton method for pure Lorentz and Doppler broadening regimes for each line class. The total SNB transmissivity is obtained by computing the product of each line class transmissivity, and the decorrelation between the spectra of the different classes is checked. Finally, the model is tested in Voigt broadening regime using a mixing rule by computing outlet radiative intensity of uniform and nonuniform columns and agrees well with the LBL approach. SNB parameters are available under request to the corresponding author.
Domaines
Sciences de l'ingénieur [physics]
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JQSRT_Janodet_Riviere_Soufiani_accepted_postprint.pdf (5.52 Mo)
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